1. Gravity-Drainage and Oil-Reinfiltration Modeling in Naturally Fractured Reservoir Simulation.
- Author
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De Guevara-Torres, J. Ernesto Ladron, Rodriguez-de la Garza, Fernando, and Galindo-Nava, Agustin
- Subjects
RESERVOIRS ,POROSITY ,MATRICES (Mathematics) ,ROCKS ,EQUATIONS ,PETROLEUM - Abstract
The gravity-drainage and oil-reinfiltration processes that occur in the gas-cap zone of naturally fractured reservoirs (NFRs) are studied through single porosity refined grid simulations. A stack of initially oil-saturated matrix blocks in the presence of connate water surrounded by gas-saturated fractures is considered; gas is provided at the top of the stack at a constant pressure under gravity-capillary dominated flow conditions. An in-house reservoir simulator, SIMPUMA-FRAC, and two other commercial simulators were used to run the numerical experiments; the three simulators gave basically the same results. Gravity-drainage and oil-reinfiltration rates, along with average fluid saturations, were computed in the stack of matrix blocks through time. Pseudofunctions for oil reinfiltration and gravity drainage were developed and considered in a revised formulation of the dual-porosity flow equations used in the fractured reservoir simulation. The modified dual-porosity equations were implemented in SIMPUMA-FRAC (Galindo-Nava 1998; Galindo-Nava et al. 1998), and solutions were verified with good results against those obtained from the equivalent single porosity refined grid simulations. The same simulations--considering gravity drainage and oil rein filtration processes--were attempted to run in the two other commercial simulators, in their dual-porosity mode and using available options. Results obtained were different among them and significantly different from those obtained from SIMPUMAFRAC. [ABSTRACT FROM AUTHOR]
- Published
- 2009
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